Is there any class for GPS area calculate?

What do you mean, area? GPS only gives you coordinates: "you are here". If you collect multiple coordinates, you could somehow calculate an area of something, but how do you intend to do it? A set of GPS coordinates usually gives you an open path  do you plan to close this somehow (e.g. my first coordinate is [0,0], next is [0.1,0], next is [0.2,1]  how do you find an area of a line)? Please be more specific on what you are actually trying to do. – Piskvor Mar 24 '11 at 8:52
I use this code to calculate an area delimited by GPS points with Android:
private static final double EARTH_RADIUS = 6371000;// meters
public static double calculateAreaOfGPSPolygonOnEarthInSquareMeters(final List<Location> locations) {
return calculateAreaOfGPSPolygonOnSphereInSquareMeters(locations, EARTH_RADIUS);
}
private static double calculateAreaOfGPSPolygonOnSphereInSquareMeters(final List<Location> locations, final double radius) {
if (locations.size() < 3) {
return 0;
}
final double diameter = radius * 2;
final double circumference = diameter * Math.PI;
final List<Double> listY = new ArrayList<Double>();
final List<Double> listX = new ArrayList<Double>();
final List<Double> listArea = new ArrayList<Double>();
// calculate segment x and y in degrees for each point
final double latitudeRef = locations.get(0).getLatitude();
final double longitudeRef = locations.get(0).getLongitude();
for (int i = 1; i < locations.size(); i++) {
final double latitude = locations.get(i).getLatitude();
final double longitude = locations.get(i).getLongitude();
listY.add(calculateYSegment(latitudeRef, latitude, circumference));
Log.d(LOG_TAG, String.format("Y %s: %s", listY.size()  1, listY.get(listY.size()  1)));
listX.add(calculateXSegment(longitudeRef, longitude, latitude, circumference));
Log.d(LOG_TAG, String.format("X %s: %s", listX.size()  1, listX.get(listX.size()  1)));
}
// calculate areas for each triangle segment
for (int i = 1; i < listX.size(); i++) {
final double x1 = listX.get(i  1);
final double y1 = listY.get(i  1);
final double x2 = listX.get(i);
final double y2 = listY.get(i);
listArea.add(calculateAreaInSquareMeters(x1, x2, y1, y2));
Log.d(LOG_TAG, String.format("area %s: %s", listArea.size()  1, listArea.get(listArea.size()  1)));
}
// sum areas of all triangle segments
double areasSum = 0;
for (final Double area : listArea) {
areasSum = areasSum + area;
}
// get abolute value of area, it can't be negative
return Math.abs(areasSum);// Math.sqrt(areasSum * areasSum);
}
private static Double calculateAreaInSquareMeters(final double x1, final double x2, final double y1, final double y2) {
return (y1 * x2  x1 * y2) / 2;
}
private static double calculateYSegment(final double latitudeRef, final double latitude, final double circumference) {
return (latitude  latitudeRef) * circumference / 360.0;
}
private static double calculateXSegment(final double longitudeRef, final double longitude, final double latitude,
final double circumference) {
return (longitude  longitudeRef) * circumference * Math.cos(Math.toRadians(latitude)) / 360.0;
}
You can easily adapt it to java not using a list of location objects but two list of latitudes and longitudes.
This is based on this formula:
http://mathworld.wolfram.com/PolygonArea.html
also described here:
http://en.wikipedia.org/wiki/Polygon
Principle of ploygon area calculation with this formula:
http://maruzar.blogspot.com/2011/12/irregularandregularpolygonareaby.html
Formula adapted to area on a sphere, in our case the world sphere, and excel example of the calculation very usefull to verify your algorithm in Java or other language:
http://maruzar.blogspot.com/2012/03/calculatinglandlotareawithgps.html


Yes this was not clear, this is the sphere radius, in our case the earth radius, I edited the code. – L. G. Sep 23 '13 at 8:21


1
you can calculate area of the resulting parallelogram of two vectors by recording three points: 1) starting point A 2) point B 3) point C
Get the two vectors AB and AC [B(x,y)A(x,y) = AB(x,y)]
Area is  AB X AC  !

this is accurate only when considering a flat surface. So this won't work when vectors AB and AC are 100's of miles long. – Ian Mar 24 '11 at 15:01